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Mannose impairs tumour growth and enhances chemotherapy

Author

Listed:
  • Pablo Sierra Gonzalez

    (Cancer Research UK Beatson Institute)

  • James O’Prey

    (Cancer Research UK Beatson Institute)

  • Simone Cardaci

    (Cancer Research UK Beatson Institute
    San Raffaele Scientific Institute)

  • Valentin J. A. Barthet

    (Cancer Research UK Beatson Institute)

  • Jun-ichi Sakamaki

    (Cancer Research UK Beatson Institute)

  • Florian Beaumatin

    (Cancer Research UK Beatson Institute)

  • Antonia Roseweir

    (University of Glasgow)

  • David M. Gay

    (Cancer Research UK Beatson Institute)

  • Gillian Mackay

    (Cancer Research UK Beatson Institute)

  • Gaurav Malviya

    (Cancer Research UK Beatson Institute)

  • Elżbieta Kania

    (Cancer Research UK Beatson Institute)

  • Shona Ritchie

    (Cancer Research UK Beatson Institute)

  • Alice D. Baudot

    (Cancer Research UK Beatson Institute)

  • Barbara Zunino

    (Cancer Research UK Beatson Institute)

  • Agata Mrowinska

    (Cancer Research UK Beatson Institute)

  • Colin Nixon

    (Cancer Research UK Beatson Institute)

  • Darren Ennis

    (University of Glasgow
    Imperial College London)

  • Aoisha Hoyle

    (Queen Elizabeth University Hospital)

  • David Millan

    (Queen Elizabeth University Hospital)

  • Iain A. McNeish

    (University of Glasgow
    Imperial College London)

  • Owen J. Sansom

    (Cancer Research UK Beatson Institute
    University of Glasgow)

  • Joanne Edwards

    (University of Glasgow)

  • Kevin M. Ryan

    (Cancer Research UK Beatson Institute
    University of Glasgow)

Abstract

It is now well established that tumours undergo changes in cellular metabolism1. As this can reveal tumour cell vulnerabilities and because many tumours exhibit enhanced glucose uptake2, we have been interested in how tumour cells respond to different forms of sugar. Here we report that the monosaccharide mannose causes growth retardation in several tumour types in vitro, and enhances cell death in response to major forms of chemotherapy. We then show that these effects also occur in vivo in mice following the oral administration of mannose, without significantly affecting the weight and health of the animals. Mechanistically, mannose is taken up by the same transporter(s) as glucose3 but accumulates as mannose-6-phosphate in cells, and this impairs the further metabolism of glucose in glycolysis, the tricarboxylic acid cycle, the pentose phosphate pathway and glycan synthesis. As a result, the administration of mannose in combination with conventional chemotherapy affects levels of anti-apoptotic proteins of the Bcl-2 family, leading to sensitization to cell death. Finally we show that susceptibility to mannose is dependent on the levels of phosphomannose isomerase (PMI). Cells with low levels of PMI are sensitive to mannose, whereas cells with high levels are resistant, but can be made sensitive by RNA-interference-mediated depletion of the enzyme. In addition, we use tissue microarrays to show that PMI levels also vary greatly between different patients and different tumour types, indicating that PMI levels could be used as a biomarker to direct the successful administration of mannose. We consider that the administration of mannose could be a simple, safe and selective therapy in the treatment of cancer, and could be applicable to multiple tumour types.

Suggested Citation

  • Pablo Sierra Gonzalez & James O’Prey & Simone Cardaci & Valentin J. A. Barthet & Jun-ichi Sakamaki & Florian Beaumatin & Antonia Roseweir & David M. Gay & Gillian Mackay & Gaurav Malviya & Elżbieta Ka, 2018. "Mannose impairs tumour growth and enhances chemotherapy," Nature, Nature, vol. 563(7733), pages 719-723, November.
  • Handle: RePEc:nat:nature:v:563:y:2018:i:7733:d:10.1038_s41586-018-0729-3
    DOI: 10.1038/s41586-018-0729-3
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    Citations

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    Cited by:

    1. Keith Woodley & Laura S. Dillingh & George Giotopoulos & Pedro Madrigal & Kevin M. Rattigan & Céline Philippe & Vilma Dembitz & Aoife M. S. Magee & Ryan Asby & Louie N. van de Lagemaat & Christopher M, 2023. "Mannose metabolism inhibition sensitizes acute myeloid leukaemia cells to therapy by driving ferroptotic cell death," Nature Communications, Nature, vol. 14(1), pages 1-19, December.
    2. Lijun Dong & Jingwen Xie & Youyi Wang & Honglian Jiang & Kai Chen & Dantong Li & Jing Wang & Yunzhi Liu & Jia He & Jia Zhou & Liyun Zhang & Xiao Lu & Xiaoming Zou & Xiang-Yang Wang & Qingqing Wang & Z, 2022. "Mannose ameliorates experimental colitis by protecting intestinal barrier integrity," Nature Communications, Nature, vol. 13(1), pages 1-17, December.

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